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Download University Chemistry

Download university chemistry

Download University Chemistry is designed to meet the scope and sequence requirements of the two-semester general chemistry course. The textbook provides an important opportunity for students to learn the core concepts of chemistry and understand how those concepts apply to their lives and the world around them. The book also includes a number of innovative features, including interactive exercises and real-world applications, designed to enhance student learning.

Download University Physics vol 1

 

 

Senior Contributing Authors

Paul Flowers, University of North Carolina at Pembroke
Klaus Theopold, University of Delaware
Richard Langley, Stephen F. Austin State University
William R. Robinson, PhD

Contributing Authors

Paul Hooker, Westminster College
Don Frantz, Wilfrid Laurier University
George Kaminski, Worcester Polytechnic Institute
Jennifer Look, Mercer University
Carol Martinez, Central New Mexico Community College
Andrew Eklund, Alfred University
Tom Sorensen, University of Wisconsin-Milwaukee
Allison Soult, University of Kentucky
Troy Milliken, Jackson State University
Vicki Moravec, Trine University
Jason Powell, Ferrum College
Emad El-Giar, University of Louisiana at Monroe
Mark Blaser, Shasta College
Simon Bott, University of Houston
Don Carpenetti, Craven Community College

 

download university physics vol 2

Download organic chemistry by morrison and boyd

 

 

 

  1. Preface
  2. 1. Essential Ideas
    1. Introduction
    2. 1.1. Chemistry in Context
    3. 1.2. Phases and Classification of Matter
    4. 1.3. Physical and Chemical Properties
    5. 1.4. Measurements
    6. 1.5. Measurement Uncertainty, Accuracy, and Precision
    7. 1.6. Mathematical Treatment of Measurement Results
  3. 2. Atoms, Molecules, and Ions
    1. Introduction
    2. 2.1. Early Ideas in Atomic Theory
    3. 2.2. Evolution of Atomic Theory
    4. 2.3. Atomic Structure and Symbolism
    5. 2.4. Chemical Formulas
    6. 2.5. The Periodic Table
    7. 2.6. Molecular and Ionic Compounds
    8. 2.7. Chemical Nomenclature
  4. 3. Composition of Substances and Solutions
    1. Introduction
    2. 3.1. Formula Mass and the Mole Concept
    3. 3.2. Determining Empirical and Molecular Formulas
    4. 3.3. Molarity
    5. 3.4. Other Units for Solution Concentrations
  5. 4. Stoichiometry of Chemical Reactions
    1. Introduction
    2. 4.1. Writing and Balancing Chemical Equations
    3. 4.2. Classifying Chemical Reactions
    4. 4.3. Reaction Stoichiometry
    5. 4.4. Reaction Yields
    6. 4.5. Quantitative Chemical Analysis
  6. 5. Thermochemistry
    1. Introduction
    2. 5.1. Energy Basics
    3. 5.2. Calorimetry
    4. 5.3. Enthalpy
  7. 6. Electronic Structure and Periodic Properties of Elements
    1. Introduction
    2. 6.1. Electromagnetic Energy
    3. 6.2. The Bohr Model
    4. 6.3. Development of Quantum Theory
    5. 6.4. Electronic Structure of Atoms (Electron Configurations)
    6. 6.5. Periodic Variations in Element Properties
  8. 7. Chemical Bonding and Molecular Geometry
    1. Introduction
    2. 7.1. Ionic Bonding
    3. 7.2. Covalent Bonding
    4. 7.3. Lewis Symbols and Structures
    5. 7.4. Formal Charges and Resonance
    6. 7.5. Strengths of Ionic and Covalent Bonds
    7. 7.6. Molecular Structure and Polarity
  9. 8. Advanced Theories of Covalent Bonding
    1. Introduction
    2. 8.1. Valence Bond Theory
    3. 8.2. Hybrid Atomic Orbitals
    4. 8.3. Multiple Bonds
    5. 8.4. Molecular Orbital Theory
  10. 9. Gases
    1. Introduction
    2. 9.1. Gas Pressure
    3. 9.2. Relating Pressure, Volume, Amount, and Temperature: The Ideal Gas Law
    4. 9.3. Stoichiometry of Gaseous Substances, Mixtures, and Reactions
    5. 9.4. Effusion and Diffusion of Gases
    6. 9.5. The Kinetic-Molecular Theory
    7. 9.6. Non-Ideal Gas Behavior
  11. 10. Liquids and Solids
    1. Introduction
    2. 10.1. Intermolecular Forces
    3. 10.2. Properties of Liquids
    4. 10.3. Phase Transitions
    5. 10.4. Phase Diagrams
    6. 10.5. The Solid State of Matter
    7. 10.6. Lattice Structures in Crystalline Solids
  12. 11. Solutions and Colloids
    1. Introduction
    2. 11.1. The Dissolution Process
    3. 11.2. Electrolytes
    4. 11.3. Solubility
    5. 11.4. Colligative Properties
    6. 11.5. Colloids
  13. 12. Kinetics
    1. Introduction
    2. 12.1. Chemical Reaction Rates
    3. 12.2. Factors Affecting Reaction Rates
    4. 12.3. Rate Laws
    5. 12.4. Integrated Rate Laws
    6. 12.5. Collision Theory
    7. 12.6. Reaction Mechanisms
    8. 12.7. Catalysis
  14. 13. Fundamental Equilibrium Concepts
    1. Introduction
    2. 13.1. Chemical Equilibria
    3. 13.2. Equilibrium Constants
    4. 13.3. Shifting Equilibria: Le Châtelier’s Principle
    5. 13.4. Equilibrium Calculations
  15. 14. Acid-Base Equilibria
    1. Introduction
    2. 14.1. Brønsted-Lowry Acids and Bases
    3. 14.2. pH and pOH
    4. 14.3. Relative Strengths of Acids and Bases
    5. 14.4. Hydrolysis of Salt Solutions
    6. 14.5. Polyprotic Acids
    7. 14.6. Buffers
    8. 14.7. Acid-Base Titrations
  16. 15. Equilibria of Other Reaction Classes
    1. Introduction
    2. 15.1. Precipitation and Dissolution
    3. 15.2. Lewis Acids and Bases
    4. 15.3. Multiple Equilibria
  17. 16. Thermodynamics
    1. Introduction
    2. 16.1. Spontaneity
    3. 16.2. Entropy
    4. 16.3. The Second and Third Laws of Thermodynamics
    5. 16.4. Free Energy
  18. 17. Electrochemistry
    1. Introduction
    2. 17.1. Balancing Oxidation-Reduction Reactions
    3. 17.2. Galvanic Cells
    4. 17.3. Standard Reduction Potentials
    5. 17.4. The Nernst Equation
    6. 17.5. Batteries and Fuel Cells
    7. 17.6. Corrosion
    8. 17.7. Electrolysis
  19. 18. Representative Metals, Metalloids, and Nonmetals
    1. Introduction
    2. 18.1. Periodicity
    3. 18.2. Occurrence and Preparation of the Representative Metals
    4. 18.3. Structure and General Properties of the Metalloids
    5. 18.4. Structure and General Properties of the Nonmetals
    6. 18.5. Occurrence, Preparation, and Compounds of Hydrogen
    7. 18.6. Occurrence, Preparation, and Properties of Carbonates
    8. 18.7. Occurrence, Preparation, and Properties of Nitrogen
    9. 18.8. Occurrence, Preparation, and Properties of Phosphorus
    10. 18.9. Occurrence, Preparation, and Compounds of Oxygen
    11. 18.10. Occurrence, Preparation, and Properties of Sulfur
    12. 18.11. Occurrence, Preparation, and Properties of Halogens
    13. 18.12. Occurrence, Preparation, and Properties of the Noble Gases
  20. 19. Transition Metals and Coordination Chemistry
    1. Introduction
    2. 19.1. Occurrence, Preparation, and Properties of Transition Metals and Their Compounds
    3. 19.2. Coordination Chemistry of Transition Metals
    4. 19.3. Spectroscopic and Magnetic Properties of Coordination Compounds
  21. 20. Organic Chemistry
    1. Introduction
    2. 20.1. Hydrocarbons
    3. 20.2. Alcohols and Ethers
    4. 20.3. Aldehydes, Ketones, Carboxylic Acids, and Esters
    5. 20.4. Amines and Amides
  22. 21. Nuclear Chemistry
    1. Introduction
    2. 21.1. Nuclear Structure and Stability
    3. 21.2. Nuclear Equations
    4. 21.3. Radioactive Decay
    5. 21.4. Transmutation and Nuclear Energy
    6. 21.5. Uses of Radioisotopes
    7. 21.6. Biological Effects of Radiation
  23. The Periodic Table
  24. Essential Mathematics
  25. Units and Conversion Factors
  26. Fundamental Physical Constants
  27. Water Properties
  28. Composition of Commercial Acids and Bases
  29. Standard Thermodynamic Properties for Selected Substances
  30. Ionization Constants of Weak Acids
  31. Ionization Constants of Weak Bases
  32. Solubility Products
  33. Formation Constants for Complex Ions
  34. Standard Electrode (Half-Cell) Potentials
  35. Half-Lives for Several Radioactive Isotopes

 

 

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